WO2021143174A1 - Intelligent mouse having physiological index and pressure detection functions - Google Patents

Abstract

Disclosed in the present invention is an intelligent mouse having physiological index and pressure detection functions. The intelligent mouse having the physiological index and pressure detection functions comprises a mouse body and a sensor assembly. The mouse body comprises a shell and a control assembly. The sensor assembly is provided on the shell and is in communication connection with the control assembly. The sensor assembly is suitable for acquiring at least one human physiological index and transmitting the human physiological index to the control assembly. According to the present invention, by means of improvement on a mouse, a sensor assembly is provided on the mouse body, so that in a process that an office worker normally uses conventional functions of the intelligent mouse, physiological indexes of the user of the intelligent mouse can be acquired in a long term, the physiological and mental states of the user can be known in time by means of analysis and comparison of the human physiological indexes, some short-term and long-term disease symptoms are found, and physical and psychological health is guaranteed.

Description

A smart mouse with physiological indicators and pressure detection functions

Cross-references to related applications

This application claims the priority of a Chinese patent application filed with the Chinese Patent Office on January 16, 2020, with the application number CN 202020088170.0, titled "A Smart Mouse with Physiological Indicators and Pressure Detection Function", the entire content of which is incorporated by reference Incorporated in this application.

Technical field

The present disclosure relates to the technical field of electronic equipment, and in particular to a smart mouse with physiological indicators and pressure detection functions.

Background technique

Many people use the mouse continuously for a long time due to work or other reasons, but it is difficult for these people to check their physical and mental health in time, and the physical examination only once a year may miss the early symptoms of certain diseases, leading to long-term The accumulated mental stress may not get enough attention and relief.

Public content

The purpose of the present disclosure includes, for example, providing a smart mouse with physiological indicators and pressure detection functions, and a method for using the smart mouse to detect the physiological indicators of the user, so as to facilitate the detection of the health of the human body and prevent diseases. .

The smart mouse with physiological indicators and pressure detection functions provided according to the embodiments of the present disclosure includes:

Mouse body, including housing and control components;

The sensor component is arranged in the housing and is communicatively connected with the control component, and the sensor component is adapted to collect at least one human physiological index and transmit it to the control component.

Optionally, the sensor component includes at least one of a pulse sensor, an electrical skin sensor, and a body temperature sensor.

Optionally, the sensor assembly includes at least one pulse sensor, the housing includes a thumb area side wall, an outer surface of the thumb area side wall is adapted to contact a thumb, and the at least one pulse sensor is provided on the thumb Area side walls.

Optionally, the smart mouse with physiological indicators and pressure detection functions further includes:

The thumb fixing device is arranged on the side wall of the thumb area, and the thumb fixing device is configured to limit the thumb.

Optionally, the thumb fixing device includes:

A first pillar, one end of the first pillar is connected to the side wall of the thumb area;

A second pillar, one end of the second pillar is connected to the side wall of the thumb region, and the second pillar and the first pillar are spaced up and down;

A rotating shaft, the rotating shaft passing through the other end of the first pillar and the other end of the second pillar;

A splint, the splint is located between the first pillar and the second pillar and passes through the rotating shaft;

The first pillar, the second pillar, the splint, and the side wall of the thumb area define a receiving chamber, and the thumb is adapted to extend into the receiving chamber.

Optionally, the thumb fixing device further includes:

A spring, one end of the spring is connected to one end of the splint, and the other end of the spring is connected to the side wall of the thumb area, and the spring is configured to push the thumb to move toward the side wall of the thumb area.

Optionally, the thumb fixing device includes:

Finger cuff, connected with the side wall of the thumb area;

The elastic member is arranged in the finger cuff, the elastic member is opposite to the side wall of the thumb area, and the elastic member is configured to push the thumb to move toward the side wall of the thumb area.

Optionally, the side wall of the thumb area is curved and recessed toward the inside of the housing.

Optionally, the housing includes an outer surface of the left button, an outer surface of the right button, and a front surface of the mouse, and the front surface of the mouse is opposite to the palm of the hand;

The electrical skin sensor includes:

The first electrode member is arranged on the outer surface of the left button or the front surface of the mouse, and the first electrode member is suitable for contacting the index finger, the middle finger, the ring finger or the palm of the hand;

The second electrode element is arranged spaced apart from the first electrode element, the second electrode element is arranged on the outer surface of the right button or the front of the mouse, and the second electrode element is suitable for contacting the index finger, middle finger, ring finger or Palm touch.

Optionally, the smart mouse further includes a data processing module configured to process the at least one human physiological index received from the sensor component before transmitting it to the control component.

According to an embodiment of the present disclosure, a method for detecting a user's physiological index using the above-mentioned smart mouse with physiological index and pressure detection function is provided, and the method includes:

Collect at least one physiological index of the human body through the sensor component; and

The physiological indicators of the human body are transmitted to the electronic device that is communicatively connected with the smart mouse, so that the electronic device processes the received physiological indicators of the human body to determine the health state of the human body.

Optionally, the sensor component collecting at least one physiological indicator of the human body includes: collecting the pulse of the user of the smart mouse; collecting the skin feeling characteristics of the user; and collecting the body temperature of the user.

Optionally, the sensor component that transmits human physiological indicators to the electronic device communicatively connected with the smart mouse includes: the sensor component converts the collected human physiological indicators into electrical signals and transmits the data to the smart mouse. Processing module, the data processing module processes the electrical signal and sends it to the transmission module of the control component, and the transmission module transmits the processed electrical signal to the electronic device together with the signal of the original circuit module of the smart mouse.

Optionally, the processing of the electrical signal by the data processing module includes extracting multiple features from the electrical signal.

Optionally, the method further includes: the electronic device puts the extracted multiple features into the trained classification model, and calculates the physical and mental state index.

By adopting the embodiments of the present disclosure, the following beneficial effects can be achieved, for example, through the improvement of the mouse, the sensor component is arranged on the mouse body, so that the user of the smart mouse can be performed on the smart mouse during the normal use of the smart mouse by office workers. Long-term collection of physiological indicators, and analysis and comparison of human physiological indicators, to know the user's physical and mental state in time, so as to discover some short-term and long-term symptoms of disease, and protect physical and mental health.

The above description is only an overview of the technical solutions of the present disclosure. In order to understand the technical means of the present disclosure more clearly, they can be implemented in accordance with the content of the specification, and in order to make the above and other objectives, features and advantages of the present disclosure more obvious and easy to understand. In the following, specific embodiments of the present disclosure are specifically cited.

Description of the drawings

By reading the detailed description of the embodiments below, various other advantages and benefits will become clear to those of ordinary skill in the art. The drawings are only used for the purpose of illustrating the preferred embodiments, and are not considered as a limitation to the present disclosure. In the attached picture:

FIG. 1 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

2 is a schematic diagram of the structure of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

4 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

FIG. 5 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

Fig. 6 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

8 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

9 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure;

Fig. 10 is a schematic structural diagram of a smart mouse with physiological indicators and pressure detection functions in an embodiment of the present disclosure.

Attached icon number:

Smart mouse 1,

Pulse sensor 10, body temperature sensor 40,

Skin electrical sensor 20, first electrode member 21, second electrode member 22,

Thumb fixation device 30,

The first support 31, the splint 32, the rotating shaft 33, the spring 34, the side wall a of the thumb area, and the mouse front b.

Detailed ways

Hereinafter, exemplary embodiments of the present disclosure will be described in more detail with reference to the accompanying drawings. Although the drawings show exemplary embodiments of the present disclosure, it should be understood that the present disclosure can be implemented in various forms and should not be limited by the embodiments set forth herein. On the contrary, these embodiments are provided to enable a more thorough understanding of the present disclosure and to fully convey the scope of the present disclosure to those skilled in the art.

The smart mouse 1 with physiological indicators and pressure detection functions provided according to an embodiment of the present disclosure includes: a mouse body and a sensor component. The mouse body includes a housing and a control assembly. The mouse body can implement conventional functions of a mouse. For example, the mouse body can include a mouse original circuit module, a transmission module, and a data cable. The sensor component can be arranged inside or on the surface of the casing and communicated with the control component. The sensor component is adapted to collect at least one physiological indicator of the human body and transmit it to the control component.

It should be noted here that the “communication connection” mentioned above can be understood as a direct communication connection, that is, the sensor component directly transmits the collected human physiological indicators to the control component; the “communication connection” can also be an indirect communication connection That is, the sensor component communicates with the control component through middleware. For example, the sensor component can first transmit the collected human physiological indicators to the data processing module, and the data processing module processes the human physiological indicator signals before transmitting to the control component .

Using the embodiments of the present disclosure, for example, the following beneficial effects can be achieved: through the improvement of the mouse, a sensor component is provided on the mouse body, so that the conventional functions of the smart mouse 1 are used by office workers, that is, the advantages of the prior art mouse are realized. Under the premise of function, the user of the smart mouse 1 can be collected for long-term physiological indicators, and the physiological indicators of the human body can be analyzed and compared, and the user’s physical and mental state can be learned in time, so as to find some short-term and long-term disease signs. Protect physical and mental health.

On the basis of the above-mentioned embodiments, various modified embodiments can also be proposed. It should be noted here that, in order to make the description concise, only the differences from the above-mentioned embodiments are described in each modified embodiment.

As shown in Figs. 1-9, the smart mouse 1 provided according to some embodiments of the present disclosure includes a mouse body and a sensor component. The sensor assembly may include at least one of the pulse sensor 10, the electrical skin sensor 20, and the body temperature sensor 40. The pulse sensor 10 may be configured to detect the pulse of the user of the smart mouse 1, the skin electrical sensor 20 may be configured to detect the skin sensory characteristics of the user of the smart mouse 1, and the body temperature sensor 40 may be configured to detect the user of the smart mouse 1. Body temperature.

As shown in FIG. 1, according to some embodiments of the present disclosure, the body temperature sensor 40 may be arranged in the housing, and the body temperature sensor 40 may be arranged close to the palm of the hand, so as to collect the body temperature of the user. In some embodiments of the present disclosure, the body temperature sensor 40 may be an infrared temperature sensor for detecting body temperature.

As shown in FIGS. 1 to 6, in some embodiments of the present disclosure, the sensor assembly may include at least one pulse sensor 10. It can be understood that the number of pulse sensors 10 included in the sensor assembly may be one or more.

According to some embodiments of the present disclosure, the housing of the mouse body of the smart mouse 1 may include the outer surface of the left button, the outer surface of the right button, the side wall a of the thumb area, and the front surface b of the mouse. The various components in the sensor assembly can be arranged on the housing of the mouse body in the following manner, for example: the pulse sensor 10 is arranged on the side wall a of the thumb area, the electrical skin sensor 20 is arranged on the outer surface of the left button and the right button, and body temperature The sensor 40 is arranged on the front b of the mouse. It can be understood that the setting method of each component in the sensor assembly is not limited to this, and can be changed according to specific user requirements.

In the embodiment shown in FIGS. 1 and 2, the outer surface of the side wall a of the thumb area is adapted to be in contact with the thumb, and at least one pulse sensor 10 is provided in the side wall a of the thumb area. Specifically, the pulse sensor 10 can be arranged on the thumb area side wall a such that its surface is flush with the thumb area side wall a or slightly exceeds the surface of the thumb area side wall a, so as to ensure that the user’s thumb is at the level of the thumb when using the smart mouse. comfortability. For example, as shown in FIG. 2, there may be multiple pulse sensors 10, and the multiple pulse sensors 10 are arrayed on the side wall a of the thumb area. As a result, it can be ensured that the pad of the thumb of most smart mice 1 can contact at least one pulse sensor 10 in the grip posture. It should be noted that “the outer surface of the side wall a of the thumb area is suitable for contact with the thumb” mentioned here is described on the basis of the grip state of most mouse users, which refers to the position of the side wall a of the thumb area. description of.

In some embodiments of the present disclosure, the pulse sensor 10 may be provided on the outer surface of the side wall a in the thumb area. For example, the pulse sensor 10 may be embedded on the outer surface of the side wall a of the thumb area or pasted on the outer surface of the side wall a of the thumb area, and the pad of the thumb may be attached to the pulse sensor 10. In some embodiments of the present disclosure, the pulse sensor 10 may be provided on the inner surface of the side wall a of the thumb area. For example, the pulse sensor 10 may be embedded on the inner surface of the side wall a in the thumb area or pasted on the inner surface of the side wall a in the thumb area.

In some examples of the present disclosure, the pulse sensor 10 may be a contact photoplethysmography sensor.

As shown in FIGS. 3 to 5, in another embodiment of the present disclosure, the smart mouse 1 with physiological indicators and pressure detection functions may further include a thumb fixing device 30. The thumb fixing device 30 is provided on the side wall a of the thumb area, and the thumb fixing device 30 may be configured to confine the thumb at a position corresponding to the pulse sensor 10 on the side wall a of the thumb area. As a result, the robustness of the detection signal of the pulse sensor 10 can be improved.

As shown in FIG. 3, in some examples of the present disclosure, the thumb fixing device 30 may include: a first pillar 31, a second pillar (hidden by the first pillar 31 ), a rotating shaft 33 and a splint 32. The first pillar 31 and the second pillar are arranged on both sides of the user's thumb to clamp the thumb, and the two may have the same or similar structure to maintain the stability of the thumb. One end of the first pillar 31 is connected to the thumb area side wall a, one end of the second pillar is connected to the thumb area side wall a, and the second pillar and the first pillar 31 are spaced up and down. The rotating shaft 33 passes through the other end of the first pillar 31 and the other end of the second pillar. The clamping plate 32 is located between the first pillar 31 and the second pillar and passes through the rotating shaft 33.

Thus, the U-shaped structure formed by the first pillar 31, the second pillar and the splint 32 connected by the rotating shaft 33 and the side wall a of the thumb area define a receiving chamber, and the thumb is suitable for extending into the receiving chamber. The first pillar 31, the second pillar (hidden by the first pillar 31 ), the rotating shaft 33 and the clamping plate 32 may be configured to form a lever member that rotates around the rotating shaft 33. When one end of the splint 32 is pushed by the thumb, it will press the thumb at the other end due to the principle of leverage.

Optionally, as shown in FIG. 4, the thumb fixing device 30 may further include a spring 34, one end of the spring 34 is connected to one end of the splint 32, and the other end of the spring 34 is connected to the side wall a of the thumb region, and the spring 34 is configured to Push the thumb toward the side wall a of the thumb area. The splint 32 is pressed by the spring 34 against the thumb.

As shown in FIG. 5, in some examples of the present disclosure, the thumb fixing device 30 may include a finger sleeve and an elastic member. The finger cuff is connected with the side wall a of the thumb area. The elastic member is arranged in the finger cuff, and the elastic member is opposite to the side wall a of the thumb area, and the elastic member is configured to push the thumb to move toward the side wall a of the thumb area and press the thumb to closely fit the pulse sensor 10.

Optionally, as shown in FIG. 6, the side wall a of the thumb area may be curved and recessed toward the inside of the housing. As a result, the side wall a of the thumb area is designed to fit the shape of the thumb with an ergonomic structure, and guide the pad of the thumb to contact the pulse sensor 10.

The electrical skin sensor 20 includes a first electrode member 21 and a second electrode member 22.

In the embodiments shown in FIGS. 1 and 8, the first electrode member 21 and the second electrode member 22 are both arranged on the front surface b of the mouse and are suitable for contact with the palm of the hand. In addition, in the embodiment shown in FIG. 1, a temperature sensor 40 is also provided on the mouse front b, and the first electrode member 21 and the second electrode member 22 may be symmetrically arranged with respect to the temperature sensor 40 on the mouse front b.

In the embodiment shown in FIG. 7, the first electrode member 21 is provided on the outer surface of the left key, and the first electrode member 21 is adapted to contact the index finger, the middle finger or the ring finger; the second electrode member 22 and the first electrode member 21 are arranged at intervals, the second electrode member 22 is arranged on the outer surface of the right button, and the second electrode member 22 is suitable for contacting the index finger, the middle finger or the ring finger.

In some embodiments of the present disclosure, the first electrode element 21 and the second electrode element 22 are both impedance measuring electrodes, and both are used to detect the impedance of the human skin.

The smart mouse 1 with physiological indicators and pressure detection functions provided according to an embodiment of the present disclosure may also include a warning device. The warning device can be configured to: when the electronic device analyzes and compares the human physiological indexes detected by the sensor assembly, the result is outside the preset value range of the human physiological indexes, and then sends a warning to the user of the smart mouse; When the result is within the preset value range of human physiological indicators, no warning will be given.

The warning device can be a warning light, a buzzer device or other devices that can be integrated in the smart mouse 1. Correspondingly, the warning issued by the warning device may be the flashing of a light or the sound of a buzzer device.

According to the method for detecting physiological indicators by a smart mouse with physiological indicators and pressure detection functions provided by embodiments of the present disclosure, the smart mouse with physiological indicators and pressure detection functions is the above-mentioned smart mouse with physiological indicators and pressure detection functions.

Methods of detecting physiological indicators include:

The sensor component collects at least one physiological index of the human body;

The sensor component transmits the physiological indicators of the human body to the control component to analyze and compare the physiological indicators of the human body to determine the health state of the human body.

It should be noted that the control component can analyze and compare the physiological indicators of the human body to determine the health of the human body, or the control component can transmit the physiological indicators of the human body to the electronic device, and the electronic device can analyze and compare the physiological indicators of the human body to determine the human body’s health. health status. For example, the sensor component collects the physiological indicators of the human body and converts it into electrical signals and transmits them to the control component. The control component transmits the electrical signals to the electronic device. The electronic device can put multiple features into the trained classification model, can calculate the physical and mental state index, and present it to the user.

By adopting the embodiments of the present disclosure, by improving the mouse, a sensor component is arranged on the mouse body, so that when office workers normally use the normal functions of the smart mouse, the user of the smart mouse can be used for long-term collection of physiological indicators, and Analyze and compare the physiological indicators of the human body, and learn the user's physical and mental state in time, so as to find some short-term and long-term disease signs to protect physical and mental health.

In some embodiments of the present disclosure, the smart mouse with physiological indicators and pressure detection functions further includes a data processing module. The sensor component collects human physiological indicators and converts them into electrical signals and transmits them to the data processing module. The data processing module processes the electrical signals. Then it is sent to the transmission module of the control component, and the transmission module transmits the processed electrical signal together with the signal of the original circuit module of the mouse to the electronic device. The original mouse circuit module is the circuit responsible for mouse movement and clicking functions. The processing of the electrical signal by the data processing module includes extracting multiple features from the electrical signal. The electronic device can put multiple features into the trained classification model, can calculate the physical and mental state index, and present it to the user.

The smart mouse 1 with physiological indicators and pressure detection functions according to the embodiments of the present disclosure will be described in detail below with reference to FIGS. 1 to 10 in several specific embodiments. It should be understood that the following description is only an exemplary description, rather than a specific limitation to the present disclosure. Any similar structure and similar changes that adopt the present disclosure should be included in the protection scope of the present disclosure.

In an embodiment according to the present disclosure, the smart mouse 1 with physiological indicators and pressure detection functions includes: a mouse body, a sensor component, and a data processing module.

As shown in Figure 1, Figure 9 and Figure 10, the mouse body includes a housing and a control assembly. The mouse body can realize the conventional functions of the mouse, and the control component can include the original circuit module of the mouse, the transmission module and the data line. The original mouse circuit module is the circuit responsible for mouse movement and clicking functions. One end of the data line is communicatively connected with the transmission module, the other end of the data line is communicatively connected with electronic equipment (such as a computer), and the original circuit module of the mouse is communicatively connected with the transmission module. The data processing module communicates with the transmission module.

As shown in FIGS. 1 and 2, the sensor assembly includes a pulse sensor 10, an electrical skin sensor 20 and a body temperature sensor 40. The pulse sensor 10, the skin sensor 20, and the body temperature sensor 40 are all in communication connection with the data processing module. The pulse sensor 10 may be configured to detect the pulse of the user of the smart mouse 1, the electrical skin sensor 20 may be configured to detect the skin sensory characteristics of the user of the smart mouse 1, and the body temperature sensor 40 may be configured to detect the body temperature of the user of the smart mouse 1. .

The body temperature sensor 40 may be arranged in the housing, and the body temperature sensor 40 may be arranged close to the palm of the hand. The body temperature sensor 40 may be an infrared temperature sensor.

As shown in Fig. 7, the housing may include a main body structure, a left button and a right button. Both the left button and the right button can be movably connected to the main structure. Both the left button and the right button are impedance measuring electrodes to form an electrical skin sensor 20 for detecting human skin impedance.

As shown in FIGS. 1 and 2, the main structure includes a thumb area side wall a, the outer surface of the thumb area side wall a is suitable for contact with the thumb, and the pulse sensor 10 is provided on the thumb area side wall a. There may be multiple pulse sensors 10, and multiple pulse sensors 10 are arrayed on the side wall a of the thumb area. As a result, it can be ensured that the pad of the thumb of most smart mice 1 can contact at least one pulse sensor 10 in the grip posture. It should be noted that “the outer surface of the side wall a of the thumb area is suitable for contact with the thumb” mentioned here is described on the basis of the grip state of most mouse users, which refers to the position of the side wall a of the thumb area. description of.

The pulse sensor 10 may be provided on the outer surface of the side wall a in the thumb area. For example, the pulse sensor 10 may be embedded on the outer surface of the side wall a of the thumb area or pasted on the outer surface of the side wall a of the thumb area, and the pad of the thumb may be attached to the pulse sensor 10.

Referring to Figure 9 and Figure 10, it can be seen that the sensor component collects physiological indicators of the human body and converts it into electrical signals and transmits them to the data processing module. The data processing module processes the electrical signals and sends them to the transmission module of the control component. The transmission module will process the electrical signals. The signal of the original circuit module of the mouse is transmitted to the electronic device together. The processing of the electrical signal by the data processing module includes extracting multiple features from the electrical signal. The electronic device can put multiple features into the trained classification model, can calculate the physical and mental state index, and present it to the user.

In an embodiment according to the present disclosure, as shown in FIG. 6, the difference from the foregoing embodiment is that the side wall a of the thumb area is curved and recessed toward the inside of the housing. Therefore, the side wall a of the thumb area is designed to fit the shape of the thumb with an ergonomic structure, and guide the pad of the thumb to contact the pulse sensor 10.

In an embodiment according to the present disclosure, as shown in FIG. 3, different from the previous embodiment, the smart mouse 1 with physiological indicators and pressure detection functions further includes a thumb fixing device 30, which is provided in the thumb area On the side wall a, the thumb fixing device 30 is configured to define the thumb to improve the robustness of the pulse sensor 10 to detect signals. The thumb fixing device 30 includes a first pillar 31, a second pillar, a rotating shaft 33 and a splint 32. One end of the first pillar 31 is connected to the side wall a of the thumb area. One end of the second pillar is connected to the side wall a of the thumb area, and the second pillar and the first pillar 31 are spaced up and down. The rotating shaft 33 passes through the other end of the first pillar 31 and the other end of the second pillar. The clamping plate 32 is located between the first pillar 31 and the second pillar and passes through the rotating shaft 33. The first pillar 31, the second pillar, the splint 32, and the side wall a of the thumb area define a receiving chamber, and the thumb is adapted to extend into the receiving chamber. When one end of the splint 32 is pushed by the thumb, it will press the thumb at the other end due to the principle of leverage.

In an embodiment according to the present disclosure, as shown in FIG. 4, unlike the previous embodiment, the thumb fixing device 30 may further include: a spring 34, one end of the spring 34 is connected to one end of the splint 32, and the other of the spring 34 One end is connected to the thumb area side wall a, and the spring 34 is configured to push the thumb to move toward the thumb area side wall a. The splint 32 is pressed by the spring 34 against the thumb.

In an embodiment according to the present disclosure, as shown in FIG. 5, different from the foregoing embodiment, the thumb fixing device 30 may include a finger sleeve and an elastic member. The finger cuff is connected with the side wall a of the thumb area. The elastic member is arranged in the finger cuff, and the elastic member is opposite to the side wall a of the thumb area, and the elastic member is configured to push the thumb to move toward the side wall a of the thumb area and press the thumb to closely fit the pulse sensor 10.

In an embodiment according to the present disclosure, as shown in FIG. 8, the difference from the previous embodiment is that the left button and the right button are ordinary buttons. The electrical skin sensor 20 includes a first electrode member 21 and a second electrode member 22 arranged at intervals. The first electrode part 21 and the second electrode part 22 are both arranged on the front side b of the mouse of the main structure. Both the first electrode part 21 and the second electrode part 22 can be in contact with the palm of the hand for detecting human skin impedance.

It should be noted that the above descriptions are only preferred embodiments of the present disclosure, and are not intended to limit the present disclosure. For those skilled in the art, the present disclosure may have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present disclosure shall be included in the protection scope of the present disclosure.

In the description of this specification, the description with reference to the terms "one embodiment", "some embodiments", "exemplary embodiments", "examples", "specific examples", or "some examples" etc. means to incorporate the implementation The specific features, structures, materials or characteristics described by the examples or examples are included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the above-mentioned terms do not necessarily refer to the same embodiment or example. Although some embodiments described herein include certain features included in other embodiments but not others, the combination of features of different embodiments means to be within the scope of the present disclosure and form different embodiments. The described specific features, structures, materials or characteristics can be combined in any one or more embodiments or examples in a suitable manner. For example, in the claims, any one of the claimed embodiments can be used in any combination. In addition, the use of the words first, second, and third, etc. do not indicate any order. These words can be interpreted as names.

Although the embodiments of the present disclosure have been shown and described, those of ordinary skill in the art can understand that various changes, modifications, substitutions, and modifications can be made to these embodiments without departing from the principle and purpose of the present disclosure. The scope of the present disclosure is defined by the claims and their equivalents.

Industrial applicability

The embodiments of the present disclosure provide a smart mouse with physiological indicators and pressure detection functions and a method for using the smart mouse to detect physiological indicators. Through the improvement of the mouse, the sensor component is set on the mouse body, so that when office workers use the normal functions of the smart mouse, the user of the smart mouse can be collected for long-term physiological indicators, and the physiological indicators of the human body can be analyzed By comparison, the user’s physical and mental state can be obtained in time, so that some short-term and long-term disease signs can be found to protect physical and mental health.

Claims (15)

1. A smart mouse with physiological indicators and pressure detection functions, which is characterized in that it comprises:

   Mouse body, including housing and control components;

   The sensor component is arranged in the housing and is communicatively connected with the control component, and the sensor component is adapted to collect at least one human physiological index and transmit it to the control component.
2. The smart mouse with physiological indicators and pressure detection functions according to claim 1, wherein the sensor component includes at least one of a pulse sensor, an electrical skin sensor, and a body temperature sensor.
3. The smart mouse with physiological indicators and pressure detection functions according to claim 1 or 2, wherein the sensor assembly includes at least one pulse sensor, the housing includes a thumb area side wall, and the thumb area side wall The outer surface of is suitable for contact with the thumb, and the at least one pulse sensor is arranged on the side wall of the thumb area.
4. The smart mouse with physiological indicators and pressure detection functions according to any one of claims 1 to 3, further comprising:

   The thumb fixing device is arranged on the side wall of the thumb area, and the thumb fixing device is configured to limit the thumb.
5. The smart mouse with physiological indicators and pressure detection functions according to claim 4, wherein the thumb fixing device comprises:

   A first pillar, one end of the first pillar is connected to the side wall of the thumb area;

   A second pillar, one end of the second pillar is connected to the side wall of the thumb region, and the second pillar and the first pillar are spaced up and down;

   A rotating shaft, the rotating shaft passing through the other end of the first pillar and the other end of the second pillar;

   A splint, the splint is located between the first pillar and the second pillar and passes through the rotating shaft;

   The first pillar, the second pillar, the splint, and the side wall of the thumb area define a receiving chamber, and the thumb is adapted to extend into the receiving chamber.
6. The smart mouse with physiological indicators and pressure detection functions according to claim 4 or 5, wherein the thumb fixing device further comprises:

   A spring, one end of the spring is connected to one end of the splint, and the other end of the spring is connected to the side wall of the thumb area, and the spring is configured to push the thumb to move toward the side wall of the thumb area.
7. The smart mouse with physiological indicators and pressure detection functions according to claim 4, wherein the thumb fixing device comprises:

   Finger cuff, connected with the side wall of the thumb area;

   The elastic member is arranged in the finger cuff, the elastic member is opposite to the side wall of the thumb region, and the elastic member is configured to push the thumb to move toward the side wall of the thumb region.
8. The smart mouse with physiological indicators and pressure detection functions according to any one of claims 3 to 7, wherein the side wall of the thumb area is curved and recessed toward the inside of the housing.
9. The smart mouse with physiological indicators and pressure detection functions according to any one of claims 1 to 8, wherein the housing includes an outer surface of the left button, an outer surface of the right button, and a front surface of the mouse, and the front surface of the mouse is connected to the outer surface of the right button. Palms facing each other

   The electrical skin sensor includes:

   The first electrode member is arranged on the outer surface of the left button or the front surface of the mouse, and the first electrode member is suitable for contacting the index finger, the middle finger, the ring finger or the palm of the hand;

   The second electrode element is arranged spaced apart from the first electrode element, the second electrode element is arranged on the outer surface of the right button or the front of the mouse, and the second electrode element is suitable for contacting the index finger, middle finger, ring finger or Palm touch.
10. The smart mouse with physiological indicators and pressure detection functions according to any one of claims 1-9, wherein the smart mouse further comprises a data processing module, and the data processing module is configured to The at least one human physiological index received by the sensor component is processed and then transmitted to the control component.
11. A method for using the smart mouse with physiological indicators and pressure detection functions according to any one of claims 1-10 to detect the physiological indicators of a user, the method comprising:

    Collect at least one physiological index of the human body through the sensor component; and

    The physiological indicators of the human body are transmitted to the electronic device that is communicatively connected with the smart mouse, so that the electronic device processes the received physiological indicators of the human body to determine the health state of the human body.
12. The method according to claim 11, wherein the sensor component collecting at least one physiological index of the human body comprises: collecting the pulse of the user of the smart mouse; collecting the skin feeling characteristics of the user; and collecting the usage The body temperature of the person.
13. The method according to claim 11 or 12, wherein the sensor component transmitting human physiological indicators to the electronic device communicatively connected with the smart mouse comprises: the sensor component transforms the collected human physiological indicators into electrical signals And transmit it to the data processing module of the smart mouse. The data processing module processes the electrical signal and sends it to the transmission module of the control component. The transmission module connects the processed electrical signal with the original circuit module of the smart mouse. The signal is transmitted to the electronic device together.
14. The method according to any one of claims 11 to 13, wherein the processing of the electrical signal by the data processing module includes extracting a plurality of features from the electrical signal.
15. The method according to claim 14, further comprising: the electronic device puts the extracted multiple features into the trained classification model, and calculates the physical and mental state index.

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